Your search keyword '"Suk-Kyeong Jung"' showing total 15 results

1. Structural basis for the dephosphorylating activity of PTPRQ towards phosphatidylinositide substrates

Author

Bonsu Ku, Kwang-Hee Bae, Sang Chul Lee, Suk-Kyeong Jung, Hyeyun Jung, Raymond L. Erikson, Sa Yeon Cho, Keum Ran Yu, Hwangseo Park, Young Jun Kim, Seung Jun Kim, Sang J. Chung, Seong Eon Ryu, and Bo Yeon Kim

Subjects

Models, Molecular, Akt signalling, Protein Conformation, Chemistry, Receptor-Like Protein Tyrosine Phosphatases, Class 3, General Medicine, Protein tyrosine phosphatase, Receptor type, Crystallography, X-Ray, Substrate Specificity, Cell biology, Dephosphorylation, Kinetics, Phosphatidylinositol Phosphates, Downregulation and upregulation, Biochemistry, Structural Biology, Catalytic Domain, Mutation, Hydrolase, Pi, Humans, Phosphorylation, Cell survival

Abstract

Unlike other classical protein tyrosine phosphatases (PTPs), PTPRQ (PTP receptor type Q) has dephosphorylating activity towards phosphatidylinositide (PI) substrates. Here, the structure of the catalytic domain of PTPRQ was solved at 1.56 Å resolution. Overall, PTPRQ adopts a tertiary fold typical of other classical PTPs. However, the disordered M6 loop of PTPRQ surrounding the catalytic core and the concomitant absence of interactions of this loop with residues in the PTP loop results in a flat active-site pocket. On the basis of structural and biochemical analyses, it is proposed that this structural feature might facilitate the accommodation of large substrates, making it suitable for the dephosphorylation of PI substrates. Moreover, subsequent kinetic experiments showed that PTPRQ has a strong preferences for PI(3,4,5)P3 over other PI substrates, suggesting that its regulation of cell survival and proliferation reflects downregulation of Akt signalling.

Published

2013

2. Structure-Based Virtual Screening Approach to the Discovery of Novel Inhibitors of Eyes Absent 2 Phosphatase with Various Metal Chelating Moieties

Author

Hwangseo Park, Yong-Sam Kim, Seung J. Kim, Jeong H. Ko, Ju H. Kim, Keum Ran Yu, Byoung Chul Park, and Suk-Kyeong Jung

Subjects

Pharmacology, Virtual screening, biology, Chemistry, Stereochemistry, Organic Chemistry, Phosphatase, Active site, Protein tyrosine phosphatase, Plasma protein binding, Biochemistry, Docking (molecular), Drug Discovery, biology.protein, Molecular Medicine, Structure–activity relationship, Chelation

Abstract

Despite a series of persuasive experimental evidence for the involvement of eyes absent protein tyrosine phosphatases in various human cancers, no small-molecule inhibitor has been reported so far. We have identified seven novel inhibitors of eyes absent homologue 2 (Eya2) with IC(50) values ranging from 1 to 70 μm by the virtual screening with docking simulations and enzyme inhibition assay. Atomic charges of the active-site Mg(2+) ion complex are calculated to enhance the accuracy of docking simulations. The newly discovered inhibitors are structurally diverse and have various chelating groups for the Mg(2+) ion. The interactions with the amino acid residues responsible for the stabilizations of the inhibitors in the active site of Eya2 are addressed in detail.

Published

2011

3. Exploring binding sites other than the catalytic core in the crystal structure of the catalytic domain of MKP-4

Author

Byoung Cheol Park, Seong Eon Ryu, Seung Jun Kim, Dae Gwin Jeong, Tae-Sung Yoon, Hwangseo Park, and Suk Kyeong Jung

Subjects

Models, Molecular, Binding Sites, Transition (genetics), biology, Chemistry, Phosphatase, Active site, General Medicine, Crystal structure, Protein tyrosine phosphatase, Crystallography, X-Ray, Small Molecule Libraries, Crystallography, Structural Biology, Catalytic Domain, Dual-specificity phosphatase, Hydrolase, biology.protein, Biophysics, Dual-Specificity Phosphatases, Humans, Mitogen-Activated Protein Kinase Phosphatases, Protein Interaction Domains and Motifs, Binding site, Protein Kinase Inhibitors

Abstract

Map kinase phosphatase 4 (MKP-4), which has been implicated in signalling pathways that negatively regulate glucose uptake, belongs to the dual-specificity phosphatase (DUSP) family. An inherent property of MKPs is an ability to undergo structural rearrangement, transitioning from a partially active to a fully active conformation. Here, a 2.7 Å resolution crystal structure of the catalytic domain of MKP-4 (MKP-4C) is presented. It was determined that the MKP-4C structure seriously deviates from canonical conformations of DUSPs and this characteristic feature results in significant gaps between the catalytic core and several surrounding loops which are unique compared with other MKP counterparts that adopt an active conformation. Using virtual library screening, it was found that inhibitors bind to MKP-4C with high affinity near these gaps. Inhibitors that target other binding sites instead of the active site can be utilized to prevent transition to a fully active conformation. Compounds that are able to make contacts with these sites in MKP-4 would not only provide a beneficial increase in affinity but may also permit greater specificity relative to other protein tyrosine phosphatases.

Published

2010

4. Discovery of Novel and Potent Cdc25 Phosphatase Inhibitors Based on the Structure-Based De Novo Design

Author

Suk Kyeong Jung, Dae Gwin Jeong, Seung Jun Kim, Young Jae Bahn, Seong Eon Ryu, and Hwangseo Park

Subjects

Drug, CDC25A, biology, Cdc25 Phosphatases, Chemistry, Drug candidate, Cdc25, media_common.quotation_subject, Phosphatase, General Chemistry, Biochemistry, biology.protein, Structure based, media_common

Abstract

Cdc25 phosphatases have been considered as attractive drug targets for anticancer therapy due to the correlation of their overexpression with a wide variety of cancers. We have been able to identify five novel Cdc25 phosphatase inhibitors with micromolar activity by means of a structure-based de novo design method with a known inhibitor scaffold. Because the newly discovered inhibitors are structurally diverse and have desirable physicochemical properties as a drug candidate, they deserve further investigation as anticancer drugs. The differences in binding modes of the identified inhibitors in the active sites of Cdc25A and B are addressed in detail.

Published

2009

5. Dephosphorylation of the C-terminal Tyrosyl Residue of the DNA Damage-related Histone H2A.X Is Mediated by the Protein Phosphatase Eyes Absent

Author

Dae Gwin Jeong, Seung Jun Kim, Seong Eon Ryu, Navasona Krishnan, C. David Allis, Nicholas K. Tonks, Suk-Kyeong Jung, and Andrew Xiao

Subjects

DNA damage, Accelerated Publication, Protein tyrosine phosphatase, Biology, Transfection, Biochemistry, Substrate Specificity, Histones, Dephosphorylation, chemistry.chemical_compound, Cell Line, Tumor, Histone H2A, Electrochemistry, Humans, Phosphorylation, Molecular Biology, Protein Tyrosine Phosphatase, Non-Receptor Type 1, Kinase, Intracellular Signaling Peptides and Proteins, Nuclear Proteins, Cell Biology, Protein Structure, Tertiary, DNA-Binding Proteins, Histone, chemistry, Metals, biology.protein, Tyrosine, RNA Interference, Protein Tyrosine Phosphatases, DNA, DNA Damage

Abstract

In mammalian cells, the DNA damage-related histone H2A variant H2A.X is characterized by a C-terminal tyrosyl residue, Tyr-142, which is phosphorylated by an atypical kinase, WSTF. The phosphorylation status of Tyr-142 in H2A.X has been shown to be an important regulator of the DNA damage response by controlling the formation of gammaH2A.X foci, which are platforms for recruiting molecules involved in DNA damage repair and signaling. In this work, we present evidence to support the identification of the Eyes Absent (EYA) phosphatases, protein-tyrosine phosphatases of the haloacid dehalogenase superfamily, as being responsible for dephosphorylating the C-terminal tyrosyl residue of histone H2A.X. We demonstrate that EYA2 and EYA3 displayed specificity for Tyr-142 of H2A.X in assays in vitro. Suppression of eya3 by RNA interference resulted in elevated basal phosphorylation and inhibited DNA damage-induced dephosphorylation of Tyr-142 of H2A.X in vivo. This study provides the first indication of a physiological substrate for the EYA phosphatases and suggests a novel role for these enzymes in regulation of the DNA damage response.

Published

2009

6. Discovery of Novel Cdc25 Phosphatase Inhibitors with Micromolar Activity Based on the Structure-Based Virtual Screening

Author

Young Jae Bahn, Hwangseo Park, Dae Gwin Jeong, Seong Eon Ryu, Seung Jun Kim, Tae-Sung Yoon, Il Seo, Sang-Hyeup Lee, and Suk-Kyeong Jung

Subjects

Models, Molecular, CDC25A, Virtual screening, Sequence Homology, Amino Acid, biology, Chemistry, Cdc25, Molecular Sequence Data, Phosphatase, Drug Evaluation, Preclinical, AutoDock, Crystallography, X-Ray, Ligand (biochemistry), Structure-Activity Relationship, Biochemistry, Enzyme inhibitor, Catalytic Domain, Drug Discovery, biology.protein, cdc25 Phosphatases, Molecular Medicine, Amino Acid Sequence, Homology modeling, Enzyme Inhibitors

Abstract

Cdc25 phosphatases have been considered as attractive drug targets for anticancer therapy because of the correlation of their overexpression with a wide variety of cancers. We have been able to identify five novel Cdc25 phosphatase inhibitors with micromolar activity by means of a computer-aided drug design protocol involving the homology modeling of Cdc25A and the virtual screening with the automated AutoDock program implementing the effects of ligand solvation in the scoring function. Because the newly discovered inhibitors are structurally diverse and reveal a significant potency with IC 50 values lower than 10 microM, they can be considered for further development by structure-activity relationship studies or de novo design methods. The differences in binding modes of the identified inhibitors in the active sites of Cdc25A and B are discussed in detail.

Published

2008

7. Discovery of VHR Phosphatase Inhibitors with Micromolar Activity based on Structure-Based Virtual Screening

Author

Seong Eon Ryu, Dae Gwin Jeong, Seung Jun Kim, Suk-Kyeong Jung, and Hwangseo Park

Subjects

Models, Molecular, Phosphatase, Drug Evaluation, Preclinical, Crystallography, X-Ray, Ligands, Biochemistry, Dual Specificity Phosphatase 3, Small Molecule Libraries, Structure-Activity Relationship, Drug Discovery, Structure–activity relationship, Computer Simulation, Enzyme Inhibitors, General Pharmacology, Toxicology and Pharmaceutics, Pharmacology, Virtual screening, Binding Sites, Molecular Structure, biology, Chemistry, Organic Chemistry, Hydrogen Bonding, Docking (molecular), Enzyme inhibitor, biology.protein, Molecular Medicine, Structure based

Published

2008

8. Structural basis for the cold adaptation of psychrophilic M37 lipase fromPhotobacterium lipolyticum

Author

Byoung Chul Park, Jae-Hoon Kim, Mi Sook Lee, Seong Eon Ryu, Seung Jun Kim, Suk-Kyeong Jung, Dae Gwin Jeong, Hyung-Kwoun Kim, and Jung Kee Lee

Subjects

biology, Photobacterium, Protein Conformation, Chemistry, Acclimatization, Triacylglycerol lipase, Rhizomucor miehei, Substrate (chemistry), Lipase, Crystallography, X-Ray, biology.organism_classification, Biochemistry, Cold Temperature, Enzyme Activation, Bacterial Proteins, Structural Biology, Hydrolase, biology.protein, Oxyanion hole, Psychrophile, Molecular Biology

Abstract

The M37 lipase from Photobacterium lipolyticum shows an extremely low activation energy and strong activity at low temperatures, with optimum activity seen at 298 K and more than 75% of the optimum activity retained down to 278 K. Though the M37 lipase is most closely related to the filamentous fungal lipase, Rhizomucor miehei lipase (RML) at the primary structure level, their activity characteristics are completely different. In an effort to identify structural components of cold adaptation in lipases, we determined the crystal structure of the M37 lipase at 2.2 A resolution and compared it to that of nonadapted RML. Structural analysis revealed that M37 lipase adopted a folding pattern similar to that observed for other lipase structures. However, comparison with RML revealed that the region beneath the lid of the M37 lipase included a significant and unique cavity that would be occupied by a lid helix upon substrate binding. In addition, the oxyanion hole was much wider in M37 lipase than RML. We propose that these distinct structural characteristics of M37 lipase may facilitate the lateral movement of the helical lid and subsequent substrate hydrolysis, which might explain its low activation energy and high activity at low temperatures. Proteins 2008. © 2008 Wiley-Liss, Inc.

Published

2008

9. Crystal structure of human slingshot phosphatase 2

Author

Tae-Sung Yoon, Dae Gwin Jeong, Jae-Hoon Kim, Seung Jun Kim, Seong Eon Ryu, and Suk-Kyeong Jung

Subjects

Models, Molecular, Phosphoprotein phosphatase, Slingshot, Structure analysis, Chemistry, Phosphatase, Crystal structure, Crystallography, X-Ray, medicine.disease_cause, Biochemistry, Enzyme structure, Structural Biology, Hydrolase, Escherichia coli, Phosphoprotein Phosphatases, medicine, Humans, Molecular Biology

Published

2007

10. Synthesis and biological evaluation of rhodanine derivatives as PRL-3 inhibitors

Author

Ki Ho Lee, Jae Du Ha, Sang-Hyeup Lee, Seung Jun Kim, Sung-Soo Kim, Dae Gwin Jeong, Hwan Mook Kim, Chang Woo Lee, Woul Seong Park, Suk-Kyeong Jung, Joong-Kwon Choi, Song Kyu Park, Sung Yun Cho, Seong Eon Ryu, Seung Kyu Kang, and Jin Hee Ahn

Subjects

Rhodanine, Clinical Biochemistry, Pharmaceutical Science, Naphthalenes, Biochemistry, Chemical synthesis, Mice, Structure-Activity Relationship, chemistry.chemical_compound, Cell Line, Tumor, Drug Discovery, Animals, Humans, Structure–activity relationship, Enzyme Inhibitors, Molecular Biology, IC50, chemistry.chemical_classification, Aldehydes, Molecular Structure, biology, Organic Chemistry, Biological activity, In vitro, Enzyme, chemistry, Enzyme inhibitor, biology.protein, Molecular Medicine, Protein Tyrosine Phosphatases, Protein Binding

Abstract

A series of rhodanine derivatives was synthesized and evaluated for their ability to inhibit PRL-3. Benzylidene rhodanine derivative showed good biological activity, while compound 5e was the most active in this series exhibiting an IC50 value of 0.9 microM in vitro and showed a reduced invasion in cell-based assay.

Published

2006

11. Crystal structure of xenotropic murine leukaemia virus-related virus(XMRV) ribonuclease H

Author

Raymond L. Erikson, Keum Ran Yu, Sunghyun Kang, Ju Hee Kim, Bong Hyun Chung, Bo Yeon Kim, Sang J. Chung, Seung Jun Kim, and Suk-Kyeong Jung

Subjects

Models, Molecular, MoMLV, Moloney murine leukaemia virus-related virus, Protein Conformation, Xenotropic murine leukemia virus-related virus, Molecular Sequence Data, Ribonuclease H, Biophysics, Biology, Crystallography, X-Ray, S2, Biochemistry, Virus, rms, root-mean-square, chemistry.chemical_compound, Bh, Bacillus halodurans, Protein structure, Catalytic Domain, Escherichia coli, murine leukaemia virus, reverse transcriptase, ribonuclease H, xenotropic murine leukaemia virus-related virus (XMRV), Amino Acid Sequence, RNase H, Molecular Biology, Conserved Sequence, Original Paper, RNase H, retroviral ribonuclease H, RNA-Directed DNA Polymerase, MLV, murine leukaemia virus, RNA, Cell Biology, XMRV, xenotropic murine leukaemia virus-related virus, biology.organism_classification, Virology, Molecular biology, Reverse transcriptase, Protein Structure, Tertiary, chemistry, DTT, dithiothreitol, Mutation, RT, reverse transcriptase, biology.protein, DNA

Abstract

RNase H (retroviral ribonuclease H) cleaves the phosphate backbone of the RNA template within an RNA/DNA hybrid to complete the synthesis of double-stranded viral DNA. In the present study we have determined the complete structure of the RNase H domain from XMRV (xenotropic murine leukaemia virus-related virus) RT (reverse transcriptase). The basic protrusion motif of the XMRV RNase H domain is folded as a short helix and an adjacent highly bent loop. Structural superposition and subsequent mutagenesis experiments suggest that the basic protrusion motif plays a role in direct binding to the major groove in RNA/DNA hybrid, as well as in establishing the co-ordination among modules in RT necessary for proper function.

Published

2012

12. Identification of 3-acyl-2-phenylamino-1,4-dihydroquinolin-4-one derivatives as inhibitors of the phosphatase SerB653 in Porphyromonas gingivalis, implicated in periodontitis

Author

Chong Hak Chae, Joo-Youn Lee, Hyeon Kyu Lee, Keum Ran Yu, Chang Hyen Kim, Raymond L. Erikson, Youngkyung Ko, Ju Hee Kim, Suk Ji, Suk-Kyeong Jung, Bo Yeon Kim, Seung Jun Kim, Eun Bok Choi, and Sang J. Chung

Subjects

Models, Molecular, Clinical Biochemistry, Phosphatase, Pharmaceutical Science, Virulence, Biochemistry, Chemical library, Microbiology, Serine, chemistry.chemical_compound, Minimum inhibitory concentration, Structure-Activity Relationship, Drug Discovery, medicine, Bacteroidaceae Infections, Structure–activity relationship, Humans, Enzyme Inhibitors, Periodontitis, Molecular Biology, Porphyromonas gingivalis, biology, Organic Chemistry, medicine.disease, biology.organism_classification, Phosphoric Monoester Hydrolases, chemistry, Quinolines, Molecular Medicine

Abstract

The serine phosphatase SerB653 plays a crucial role in the infection of Porphyromonas gingivalis, which contributes to the pathogenesis of periodontitis, an inflammatory disease of teeth-supporting tissues. Because functional loss of SerB653 eliminates the virulence of P. gingivalis, SerB653 inhibitors are considered potential periodontitis therapeutic or preventive agents. To identify SerB653 inhibitors with potent anti-periodontitis activity, we conducted a high-throughput screen of a representative 6800-compound subset of a synthetic chemical library of the Korea Chemical Bank (KCB) for compounds with activity against SerB653. The primary screening yielded 150 hits, and subsequent confirmatory studies identified eight compounds, mainly within a single cluster of 3-acyl-2-phenylamino-1,4-dihydroquinolin-4-one derivatives, that showed greater than 50% inhibition of SerB653 activity at a concentration of 50μM. A second screening with a focused library identified 10 compounds with IC(50) values less than 10μM. In antibacterial tests, three of these compounds showed a minimum inhibitory concentration against P. gingivalis growth of 5-50nM.

Published

2011

13. Crystal structure of the catalytic domain of human MKP-2 reveals a 24-mer assembly

Author

Seong Eon Ryu, Jae-Hoon Kim, Byoung Chul Park, Eui-Jeon Woo, Dae Gwin Jeong, Seung Jun Kim, Tae-Sung Yoon, and Suk-Kyeong Jung

Subjects

biology, Chemistry, Protein tyrosine phosphatase, Crystal structure, Crystallography, X-Ray, Biochemistry, Protein multimerization, Mitogen-Activated Protein Kinase Phosphatases, Catalysis, Domain (software engineering), Structural Biology, Catalytic Domain, Hydrolase, Dual-specificity phosphatase, biology.protein, Dual-Specificity Phosphatases, Humans, Protein Multimerization, Molecular Biology

Published

2009

14. Discovery of novel PRL-3 inhibitors based on the structure-based virtual screening

Author

Suk-Kyeong Jung, Dae Gwin Jeong, Seung Jun Kim, Hwangseo Park, and Seong Eon Ryu

Subjects

Magnetic Resonance Spectroscopy, Molecular model, Clinical Biochemistry, Phosphatase, Pharmaceutical Science, Antineoplastic Agents, Protein tyrosine phosphatase, Ligands, Biochemistry, Cell Line, Inhibitory Concentration 50, Structure-Activity Relationship, Drug Discovery, Humans, Benzothiazoles, Binding site, Amino Acids, Enzyme Inhibitors, Molecular Biology, chemistry.chemical_classification, Virtual screening, Binding Sites, biology, Chemistry, Organic Chemistry, Active site, Enzyme, Docking (molecular), Drug Design, biology.protein, Molecular Medicine, Computer-Aided Design, Protein Tyrosine Phosphatases

Abstract

The inhibitors of phosphatase of regenerating liver-3 (PRL-3) have been shown to be useful as therapeutics for the treatment of cancer. We have been able to identify 12 novel PRL-3 inhibitors by means of the virtual screening with docking simulations under the consideration of the effects of ligand solvation in the scoring function. Because the newly identified inhibitors are structurally diverse and reveal a significant potency with IC50 values ranging from 10 to 50 μM, all of them can be considered for further development by structure–activity relationship or de novo design methods. Structural features relevant to the interactions of the newly identified inhibitors with the amino acid residues in the active site and the peripheral binding site of PRL-3 are discussed in detail.

Published

2007

15. Structure of human alpha-enolase (hENO1), a multifunctional glycolytic enzyme

Author

Sang J. Chung, Hyo Jin Kang, Seung Jun Kim, and Suk Kyeong Jung

Subjects

Models, Molecular, DNA, Complementary, Alpha-enolase, Plasmin, Enolase, Static Electricity, Crystallography, X-Ray, Protein Structure, Secondary, Protein structure, Structural Biology, Catalytic Domain, medicine, Biomarkers, Tumor, Humans, Fibrinolysin, Receptor, DNA Primers, chemistry.chemical_classification, biology, Base Sequence, Tumor Suppressor Proteins, Plasminogen, General Medicine, Lyase, Recombinant Proteins, DNA-Binding Proteins, Enzyme, Biochemistry, chemistry, Phosphopyruvate Hydratase, biology.protein, Function (biology), medicine.drug

Abstract

Aside from its enzymatic function in the glycolytic pathway, alpha-enolase (ENO1) has been implicated in numerous diseases, including metastatic cancer, autoimmune disorders, ischaemia and bacterial infection. The disease-related roles of ENO1 are mostly attributed to its immunogenic capacity, DNA-binding ability and plasmin(ogen) receptor function, which are significantly affected by its three-dimensional structure and surface properties, rather than its enzymatic activity. Here, the crystal structure of human ENO1 (hENO1) is presented at 2.2 A resolution. Despite its high sequence similarity to other enolases, the hENO1 structure exhibits distinct surface properties, explaining its various activities, including plasmin(ogen) and DNA binding.

Published

2007